With the strategic goal of “carbon peaking and carbon neutrality” proposed, the photovoltaic industry will usher in new development opportunities. The terminal goal of "reducing costs and increasing efficiency" drives the market to iteratively upgrade to high-power and high-efficiency battery products. Large-size silicon wafers bring new opportunities to the photovoltaic industry; at the same time, new photovoltaic cells are accelerating their transformation, and various technical routes are competing for development. The expansion of N-type cells represented by TOPCon and HJT is accelerating; perovskite single junction and stacked Batteries are favored by the industry due to their application advantages such as high efficiency and low cost.
In view of the integrated development requirements of photovoltaics in construction, transportation and other fields, which battery model can stand out and become a truly competitive new photovoltaic force in the market? How can the material end, equipment end, production end, testing end, and application end work together to develop collaboratively?
With the theme of "Strain, Innovation, New Photovoltaic Power", DT New Materials held a new photovoltaic cell and component technology forum, focusing on N-type cells, perovskites, and lamination technology, focusing on the road to industrialization of new batteries and the testing of battery components. method to promote the long-term healthy and sustainable development of the photovoltaic industry.
Xia Yang
Xia Yang, graduated from the Department of Physics of Peking University, is a researcher and doctoral supervisor at the Institute of Microelectronics, Chinese Academy of Sciences. He is currently the deputy leader of the key expert group for the development of major scientific instruments and equipment of the Ministry of Science and Technology, the leader of the working group of the National Nano Standards Committee, and the director of the Yangtze River Delta Integrated Circuit Expert Committee. He has won the first prize of the Institute of Electronics, the third prize of the Science and Technology Progress Award of the Ministry of Aviation, the Semiconductor Industry Invention Gold Award, the Special Prize of the Chinese Academy of Sciences Education and Teaching Achievements, the Zhu Li Yuehua Outstanding Teacher Award, the Beijing Science and Technology Invention Award and many other awards. As the project leader, he has undertaken many national projects such as the Natural Fund Key Project, the 973 Project, and the 02 Special Project.
Shen Wenzhong
Distinguished Professor of the Yangtze River Plan of the Ministry of Education, winner of the National Science Fund for Outstanding Youth, academic leader of the Innovation Team of the Yangtze River Plan of the Ministry of Education, 2019 Asian Photovoltaic Industry Association APVIA Award, Science and Technology Achievement Award (individual category), Elsevier 2020, 2021, 2022 China Highly Cited Scholar. Since January 2007, he has served as the director of the Solar Energy Research Institute of Shanghai Jiao Tong University. He concurrently serves as the executive director of the China Renewable Energy Society, the chairman of the Shanghai Solar Energy Society, the International PVSEC (International Photovoltaic Science and Engineering Conference) Advisory Committee Member, and the editor-in-chief of "Solar Photovoltaics". Mainly engaged in research and development of new silicon-based solar cells and optoelectronic device physics research. Published more than 200 high-level academic papers in world-class SCI-collected academic journals, which have been cited by others more than 4,000 times; published 1 academic monograph ("Physics and Devices of Silicon-Based Heterojunction Solar Cells", 396,000 words, Science Press , 2014), edited 1 academic monograph ("Solar Photovoltaic Technology and Application", 864,000 words, Shanghai Jiao Tong University Press, 2013).
Ye Jichun
Doctor, researcher, doctoral supervisor. Deputy director of the affiliated New Energy Technology Institute, he has won honorary awards such as the second prize of the Natural Science Award of the Ministry of Education and the second prize of the Natural Science Award of the Chinese Optical Society. In August 2012, he joined the Ningbo Institute of Materials, Chinese Academy of Sciences as a "team talent" and established a scientific research team of more than 100 people. His research includes new solar cells, third-generation semiconductor materials and devices, etc. After returning to China, he published more than 200 papers in journals such as Joule, Energy & Environmental Science, Advanced Materials, etc., published 2 monographs, translated 1 book, applied for more than 220 patents, authorized more than 100 items, and achieved transfer and transformation of 2 projects. One of the projects received investment from the Venture Capital Fund of the Chinese Academy of Sciences. The research team has successively undertaken more than 70 national key research and development plans (6 projects), National Natural Science Foundation of China (13 projects, 1 key project), major equipment projects of the Chinese Academy of Sciences, and other countries, Zhejiang Province, Ningbo City, and enterprise scientific research projects.
Yu Jian
Yu Jian, Ph.D. from University of Chinese Academy of Sciences, Sino-German OCPC fellow, Distinguished Expert of Sichuan Province QR Program, Distinguished Expert of Chengdu Rongpiao Program, Expert of Shanghai Young Talents Sail Program, Secretary of the Party Branch and Deputy Director of the Teaching and Research Office of New Energy Science and Engineering Major , mainly engaged in cross-research and industrialization promotion in photovoltaic new energy and related fields. In recent years, he has presided over or conducted research on more than 20 high-efficiency silicon-based solar cells and projects, including the National Natural Science Foundation of China, the National 863 Project, major projects of the Chinese Academy of Sciences, key R&D projects of Sichuan Province, key high-tech R&D plans of Sichuan Province, and Chengdu International Science and Technology Cooperation Plan. The new optoelectronic device research project has achieved a series of internationally influential results, and has published more than 40 research papers in high-level journals such as Nature, Advanced Science, Nature Energy, Advanced Materials, Solar RRL, Solar Energy Materials and Solar Cells, etc. It has applied for 24 patents and granted 17 patents. Its industry-university-research results won the second prize of the Sichuan Provincial Science and Technology Progress Award. Served as an external consulting expert on new energy for multiple venture capital funds and consulting organizations.
Zhu Weidong
Zhu Weidong, Doctor of Science, associate professor at the School of Microelectronics of Xi'an University of Electronic Science and Technology of China/Huashan Elite Associate Professor, was selected into the national "Postdoctoral Innovation Talent Support Program" in 2019 (co-supervisor: Academician Hao Yue). Mainly engaged in material and device physics research on perovskite solar cells and crystalline silicon/perovskite tandem solar cells. In recent years, he has published more than 40 papers as the first author/corresponding author in internationally renowned journals such as Advanced Energy Materials, ACS Energy Letters, Nano Energy, Nano-Micro Letters, etc., and 5 papers have been selected as "ESI Highly Cited" papers, and have applied for/authorized More than 15 invention patents. Hosted/participated in more than 10 national, provincial and ministerial level projects such as the National Natural Science Foundation of China, sub-projects of the Ministry of Science and Technology’s Key R&D Plan, and Shaanxi Provincial Key R&D Plan.
Zhu Huacheng
Zhu Huacheng has presided over the National Natural Science Foundation of China's general projects and youth projects in the past five years. In 2021, he was selected into the Sichuan University Science and Technology Leadership Talent Cultivation Project and has carried out 11 horizontal R&D projects with Guangzhou Midea, Switzerland's Nestle, etc. With the support of these projects, 79 SCI papers were published, and 34 SCI papers were published as the first/independent corresponding author; invited by the editor-in-chief of the first district magazine, he edited 1 chapter in Springer Nature (Chapter: Latest Simulation Technology of Microwave Heating). Authorized 21 Chinese invention patents and 1 U.S. invention patent as the first inventor (7 patents converted as the first inventor)
Zhuang Liwei
Zhuang Liwei, Ph.D., associate professor, Shanghai "Pujiang Talent" (Integrated Circuits), visiting scholar at Johns Hopkins University, researcher of the U.S. Department of Energy Project (ALD Technology). He has long been engaged in computational fluid dynamics modeling and simulation research on various types of equipment and processes, covering fields including energy, chemical industry, integrated circuits, environment, etc. In recent years, he has published more than 20 academic papers in core journals such as AIChE Journal (Cover), and has presided over 2 National Natural Science Foundation projects, industrial ALD machine simulation design, ALD gas supply system development and other corporate projects.
Hu Yuchao
Hu Yuchao, senior engineer, holds a PhD in Engineering from Xi'an Jiaotong University. For many years, he has been engaged in academic research and industrial promotion of new energy conversion and utilization. He has made many achievements in the fields of advanced solar cells, photocatalytic water splitting to produce hydrogen, and efficient solar energy utilization systems. He has presided over a number of national, provincial and ministerial level scientific research projects. . Currently, he is committed to the technology development and industrialization of high-efficiency perovskite/crystalline silicon tandem solar cells.
Interesting topics and schedule
Wednesday, January 17, 2024
Conference registration and sign-in
Thursday, January 18, 2024
morning
New Energy Innovation Conference (Main Forum)
I opening ceremony
II General Assembly Report
Trend·Insight
1. Global energy transformation trends and future technological exploration
2. The development status, challenges and opportunities of my country’s new energy industry under the new form
3. my country’s new energy materials development strategy
Technology empowerment·Technological innovation
1. Competitive landscape of photovoltaic cell market
2. Future trends and process innovation of diversified technical routes for power batteries
3. Key challenges and trends in the application of photovoltaic + energy storage systems
Laying out new industry tracks
III Roundtable Topics
1. In the era of change, investment opportunities in the new energy track industry
2. Which technological iterations and layouts will trigger industry reshuffle and resource integration?
Welcome dinner (new energy night)
Thursday, January 18, 2024 afternoon - Friday, January 19, 2024 all day
Theme sub-forum 2: New photovoltaic cells and components forum
Theme 1: Iterative innovation of BC battery and N-type battery technology
1. Large-size and thin monocrystalline silicon wafer technology and cost reduction potential
2. TOPCon high-efficiency battery technology
3. Iteration of battery technology from IBC to XBC
4. HJT technology
Topic summary & celebrity dialogue: Discussion on the technical potential and supply chain development of N-type battery components
Topic 2: Perovskites and Tandem Batteries
1. Latest progress and competitive landscape of perovskite batteries
2. Opportunities and challenges of different deposition processes and equipment
3. Comparative selection, structural design and technical potential of lamination technology and various bottom batteries
4. Perovskite/crystalline silicon stacked cells: efficiency progress, bottom cell selection, failure analysis and technical challenges
Topic Summary & Expert Dialogue: Discussion on the Time Nodes for Large-Scale Mass Production of Perovskite Cells and the Implementation of Application Scenarios
Topic 3: Key materials, equipment, photovoltaic modules
1. Difficulties in large-scale preparation of photovoltaic components such as heterojunction, tandem cells, and perovskites
2. Advanced packaging, interconnection technology and key material solutions for N-type components
3. Test standards and methods for battery components
4. New cleaning process technology and laser equipment solutions
5. Environmental protection challenges and solutions
Topic Summary & Dialogue with Experts: In the Era of Change, the Competitive Landscape and Industrial Investment Opportunities in the Photovoltaic Cell Track